5 Papers
38 Citations
D. Rees is an academic researcher from Los Alamos National Laboratory. The author has contributed to research in topics: Spallation Neutron Source & Spallation. The author has an hindex of 3, co-authored 5 publications.
Chat about Author
Papers
Overview of the 100 mA average-current RF photoinjector
Dinh C. Nguyen,P.L. Colestock,Sergey S. Kurennoy,D. Rees,A. Regan,Steven J. Russell,D.L. Schrage,R.L. Wood,L.M. Young,T. Schultheiss,V. Christina,M. Cole,J. Rathke,J Shaw,C. R. Eddy,Ronald T. Holm,R. L. Henry,J Yater +17 more
- 01 Aug 2004
TL;DR: In this paper, the authors proposed a normal-conducting 700 MHz photoinjector with solenoid magnetic fields for emittance compensation, which is designed to produce 2.7 MeV electron beams at 3 nC bunch charge and 35 MHz repetition rate (100 mA average current).
20
Superconducting Linac for the SNS
J. Stovall,S. Nath,J. Billen,L. Young,M.T. Lynch,D. Rees,John D Galambos,D. Jeon,D. Raparia,J. Wei,R. Sundelin,K.R. Crandall,C. Pagani,P. Pierini +13 more
- 01 Aug 2000
TL;DR: The SRF linac as discussed by the authors accelerates the beam from 186 to 1250 MeV through 117 elliptical, multi-cell niobium cavities, and the expected beam dynamics performance is described.
Spallation Neutron Source High Power RF Installation and Commissioning Progress
M. McCarthy,D. Anderson,R. Fuja,P. Gurd,T. Hardek,Y. Kang,J. Bradley,K. Young,D. Rees,W. Roybal +9 more
- 16 May 2005
TL;DR: In this article, the authors present the progression of the installation and testing of the high power radio frequency (HPRF) systems in the Spallation Neutron Source (SNS) linac.
Installation and Testing for Commissioning of Normal Conducting RF Linac Segment in the SNS
Yoon W. Kang,Alexander Aleksandrov,D. Anderson,M. M. Champion,Mark Champion,M. Crofford,Craig Deibele,G. Dodson,R. Fuja,Paul Gibson,P. Gurd,T. Hardek,G. Johnson,P. Ladd,H. Ma,M. McCarthy,M. Piller,J. Tang,A. Vassioutchenko,D. Williams,J. Billen,J. Bradley,D. Rees,W. Roybal,J. Stovall,K. Young,L. Young +26 more
- 16 May 2005
TL;DR: In this article, the normal conducting segment of the SNS linac has been completely installed in the linac tunnel and successfully conditioned and commissioned, and corresponding high voltage converter modulator (HVCM) and low level RF (LLRF) control systems have been installed and tested.
1
The Spallation Neutron Source accelerator system design
S. Henderson,W.J. Abraham,Alexander Aleksandrov,C.K. Allen,Jorge Alonso,D. Anderson,D. Arenius,T. Arthur,S. Assadi,J.J Ayers,P. Bach,V. Badea,R.E. Battle,J. Beebe-Wang,B. Bergmann,J. Bernardin,T.S. Bhatia,J. Billen,T. Birke,E.A. Bjorklund,M. Blaskiewicz,B. Blind,Willem Blokland,V. Bookwalter,D. Borovina,S. Bowling,J. Bradley,C. Brantley,J. Brennan,J. Brodowski,Samuel D. J. Brown,R. Brown,D. Bruce,N. Bultman,P. Cameron,I.E. Campisi,Fabio Casagrande,N. Catalan-Lasheras,Mark Champion,Z. Chen,D. Cheng,Y. Cho,K. Christensen,C.M. Chu,J. Cleaves,R. Connolly,T. Cote,Sarah Cousineau,K.R. Crandall,J. Creel,Mark Crofford,P. Cull,R. Cutler,R. Dabney,L.R. Dalesio,E.F. Daly,R. Damm,Viatcheslav Danilov,Daniele Davino,K. Davis,C. Dawson,L. Day,Craig Deibele,Jean Delayen,J. DeLong,A. DeMello,W. DeVan,R. DiGennaro,K. Dixon,G. Dodson,Marc Doleans,Lawrence Doolittle,J. Doss,M. Drury,T. Elliot,Scott R. Ellis,J. Error,J. Fazekas,A. V. Fedotov,P. K. Feng,John Fischer,W. Fox,R. Fuja,W. Funk,John D Galambos,Venkatarao Ganni,Robert W. Garnett,X. Geng,R.C. Gentzlinger,M. Giannella,Paul Gibson,R. Gillis,J. Gioia,J. Gordon,R. A. Gough,J. Greer,W. Gregory,R. J. Gribble,Warren P. Grice,D. Gurd,P. Gurd,A. Guthrie,Harald Hahn,T. Hardek,R. Hardekopf,James F. Harrison,D. Hatfield,P. He,M. Hechler,F. Heistermann,S. Helus,T. Hiatt,S. Hicks,J.O. Hill,L. Hoff,M. Hoff,J. Hogan,M. Holding,P. Holik,Jeffrey A Holmes,N. Holtkamp,C. Hovater,M. Howell,Hsiao-Chaun Hseuh,A. Huhn,T. Hunter,T. Ilg,John D. Jackson,A. Jain,A. Jason,Dong-O Jeon,G. Johnson,A. Jones,S. Joseph,A. Justice,Yoon W. Kang,K. Kasemir,R. Keller,R. Kersevan,D.M. Kerstiens,M. Kesselman,Sang-Ho Kim,P. Kneisel,L. Kravchuk,T. Kuneli,Sergey S. Kurennoy,R. Kustom,Sungil Kwon,P. Ladd,R. Lambiase,Y.Y. Lee,Matthaeus Leitner,Ka-Ngo Leung,S. Lewis,C.J. Liaw,C. Lionberger,C. C. Lo,Cary D Long,Hans Ludewig,J. Ludvig,P. Luft,M.T. Lynch,H. Ma,R. MacGill,K. Macha,B. Madre,George Mahler,K. Mahoney,J. Maines,J. Mammosser,T. Mann,I. Marneris,P. Marroquin,R. L. Martineau,K. Matsumoto,M. McCarthy,C. McChesney,W. McGahern,P. McGehee,Wuzheng Meng,B. Merz,R.E. Meyer,B. Miller,Roland W. Mitchell,J. Mize,M. Monroy,J. Munro,G. Murdoch,J. Musson,S. Nath,Richard Nelson,J. O`Hara,D.K. Olsen,W. Oren,D. Oshatz,T. Owens,C. Pai,I. Papaphilippou,N. Patterson,J. Patterson,C. Pearson,T. Pelaia,M. Pieck,Chip Piller,Tomasz Plawski,Michael A Plum,J. Pogge,J. Power,T. Powers,Joseph Preble,M. Prokop,J. Pruyn,D. Purcell,J. Rank,D. Raparia,Alex Ratti,William A. Reass,K. Reece,D. Rees,A. Regan,M. J. Regis,Jani Reijonen,D. J. Rej,D. Richards,D. Richied,C. Rode,W. Rodriguez,M. Rodriguez,A. Rohlev,C. R. Rose,T. Roseberry,L. Rowton,W. Roybal,K. Rust,G. Salazer,J. Sandberg,J. Saunders,Thomas Schenkel,W. J. Schneider,D. Schrage,Jerome Schubert,F. Severino,R. Shafer,T. Shea,Andrei Shishlo,H. Shoaee,C. Sibley,J. Sims,S. Smee,J.D. Smith,Karen H. Smith,R. Spitz,John Staples,P. Stein,M. Stettler,M. Stirbet,Martin P. Stockli,W. Stone,D. Stout,J. Stovall,W. Strelo,H. Strong,R. Sundelin,D. Syversrud,M. Szajbler,H. Takeda,Paul J. Tallerico,J. Tang,E. Tanke,Steven Tepikian,R. Thomae,David H. Thompson,D. Thomson,M. Thuot,C. Treml,N. Tsoupas,Joseph Tuozzolo,W. Tuzel,A. Vassioutchenko,Steve Virostek,J. Wallig,P. Wanderer,Yi-Ming Wang,J.G. Wang,T.P. Wangler,D. Warren,Jie Wei,D. Weiss,R. W. Welton,J. Weng,W.T. Weng,Mark W. Wezensky,M. White,T. Whitlatch,D. Williams,E. Williams,K. Wilson,M. Wiseman,R.L. Wood,P. Wright,A. Wu,N. Ybarrolaza,K. Young,L.M. Young,R. Yourd,A. Zachoszcz,A. Zaltsman,S.Y. Zhang,W.C Zhang,Yuxuan Zhang,Alexander Zhukov +310 more
TL;DR: The Spallation Neutron Source (SNS) as discussed by the authors was designed and constructed by a collaboration of six U.S. Department of Energy national laboratories and consists of a 1 GeV linear accelerator and accumulator ring providing 1.4 MW of proton beam power in microsecond-long beam pulses to a liquid mercury target for neutron production.